全面的品质管控培训资料（英文版）课件.ppt

Chapter 17,Quality Control,Overview,IntroductionStatistical Concepts in Quality ControlControl ChartsAcceptance PlansComputers in Quality ControlQuality Control in ServicesWrap-Up:What World-Class Companies Do,Introduction,Quality control(QC)includes the activities from the suppliers,through production,and to the customers.Incoming materials are examined to make sure they meet the appropriate specifications.The quality of partially completed products are analyzed to determine if production processes are functioning properly.Finished goods and services are studied to determine if they meet customer expectations.,QC Throughout Production Systems,Raw Materials,Parts,andSupplies,ProductionProcesses,Products andServices,Inputs,Conversion,Outputs,Control ChartsandAcceptance Tests,Control ChartsandAcceptance Tests,Control Charts,Quality ofInputs,Quality ofOutputs,Quality ofPartially CompletedProducts,Services and Their Customer Expectations,HospitalPatient receive the correct treatments?Patient treated courteously by all personnel?Hospital environment support patient recovery?BankCustomers transactions completed with precision?Bank comply with government regulations?Customers statements accurate?,Products and Their Customer Expectations,AutomakerAuto have the intended durability?Parts within the manufacturing tolerances?Autos appearance pleasing?Lumber millLumber within moisture content tolerances?Lumber properly graded?Knotholes,splits,and other defects excessive?,Sampling,The flow of products is broken into discrete batches called lots.Random samples are removed from these lots and measured against certain standards.A random sample is one in which each unit in the lot has an equal chance of being included in the sample.If a sample is random,it is likely to be representative of the lot.,Sampling,Either attributes or variables can be measured and compared to standards.Attributes are characteristics that are classified into one of two categories,usually defective(not meeting specifications)or nondefective(meeting specifications).Variables are characteristics that can be measured on a continuous scale(weight,length,etc.).,Size and Frequency of Samples,As the percentage of lots in samples is increased:the sampling and sampling costs increase,andthe quality of products going to customers increases.Typically,very large samples are too costly.Extremely small samples might suffer from statistical imprecision.Larger samples are ordinarily used when sampling for attributes than for variables.,When to InspectDuring the Production Process,Inspect before costly operations.Inspect before operations that are likely to produce faulty items.Inspect before operations that cover up defects.Inspect before assembly operations that cannot be undone.On automatic machines,inspect first and last pieces of production runs,but few in-between pieces.Inspect finished products.,Central Limit Theorem,The central limit theorem is:Sampling distributions can be assumed to be normally distributed even though the population(lot)distributions are not normal.The theorem allows use of the normal distribution to easily set limits for control charts and acceptance plans for both attributes and variables.,Sampling Distributions,The sampling distribution can be assumed to be normally distributed unless sample size(n)is extremely small.The mean of the sampling distribution(x)is equal to the population mean(m).The standard error of the sampling distribution(sx)is smaller than the population standard deviation(sx)by a factor of 1/,=,-,Population and Sampling Distributions,f(x),Population Distribution,Sampling Distributionof Sample Means,Mean=mStd.Dev.=sx,Mean=x=mStd.Error=,=,x,Control Charts,Primary purpose of control charts is to indicate at a glance when production processes might have changed sufficiently to affect product quality.If the indication is that product quality has deteriorated,or is likely to,then corrective is taken.If the indication is that product quality is better than expected,then it is important to find out why so that it can be maintained.Use of control charts is often referred to as statistical process control(SPC).,Constructing Control Charts,Vertical axis provides the scale for the sample information that is plotted on the chart.Horizontal axis is the time scale.Horizontal center line is ideally determined from observing the capability of the process.Two additional horizontal lines,the lower and upper control limits,typically are 3 standard deviations below and above,respectively,the center line.,Constructing Control Charts,If the sample information falls within the lower and upper control limits,the quality of the population is considered to be in control;otherwise quality is judged to be out of control and corrective action should be considered.Two versions of control charts will be examinedControl charts for attributesControl charts for variables,Control Charts for Attributes,Inspection of the units in the sample is performed on an attribute(defective/non-defective)basis.Information provided from inspecting a sample of size n is the percent defective in a sample,p,or the number of units found to be defective in that sample divided by n.,Although the distribution of sample information follows a binomial distribution,that distribution can be approximated by a normal distribution with a mean of p standard deviation of The 3s control limits are,Control Charts for Attributes,-,Example:Attribute Control Chart,Every check cashed or deposited at Lincoln Bank must be encoded with the amount of the check before it can begin the Federal Reserve clearing process.The accuracy of the check encoding process is of upmost importance.If there is any discrepancy between the amount a check is made out for and the encoded amount,the check is defective.,Example:Attribute Control Chart,Twenty samples,each consisting of 250 checks,were selected and examined.The number of defective checks found in each sample is shown below.,Example:Attribute Control Chart,The manager of the check encoding department knows from past experience that when the encoding process is in control,an average of 1.6%of the encoded checks are defective.She wants to construct a p chart with 3-standard deviation control limits.,Example:Attribute Control Chart,Example:Attribute Control Chart,Inspection of the units in the sample is performed on a variable basis.The information provided from inspecting a sample of size n is:Sample mean,x,or the sum of measurement of each unit in the sample divided by nRange,R,of measurements within the sample,or the highest measurement in the sample minus the lowest measurement in the sample,Control Charts for Variables,In this case two separate control charts are used to monitor two different aspects of the processs output:Central tendencyVariabilityCentral tendency of the output is monitored using the x-chart.Variability of the output is monitored using the R-chart.,Control Charts for Variables,x-Chart,The central line is x,the sum of a number of sample means collected while the process was considered to be“in control”divided by the number of samples.The 3s lower control limit is x-ARThe 3s upper control limit is x+ARFactor A is based on sample size.,=,=,=,R-Chart,The central line is R,the sum of a number of sample ranges collected while the process was considered to be“in control”divided by the number of samples.The 3s lower control limit is D1R.The 3s upper control limit is D2R.Factors D1and D2 are based on sample size.,3s Control Chart Factors for Variables,Control Limit Factor Control Limit Factor Samplefor Sample Mean for Sample Range Size nAD1D221.88003.26731.02302.57540.72902.28250.57702.116100.3080.2231.777150.2230.3481.652200.1800.4141.586250.1530.4591.541Over 250.45+.001n1.55-.0015n,Example:Variable Control Chart,Harry Coates wants to construct x and R charts at the bag-filling operation for Meow Chow cat food.He has determined that when the filling operation is functioning correctly,bags of cat food average 50.01 pounds and regularly-taken 5-bag samples have an average range of.322 pounds.,Example:Variable Control Chart,Sample Mean Chart x=50.01,R=.322,n=5UCL=x+AR=50.01+.577(.322)=50.196LCL=x-AR=50.01-.577(.322)=49.824,=,=,=,Example:Variable Control Chart,Example:Variable Control Chart,Sample Range Chart x=50.01,R=.322,n=5 UCL=RD2=.322(2.116)=.681 LCL=RD1=.322(0)=0,=,Example:Variable Control Chart,Acceptance Plans,Trend today is toward developing testing methods that are so quick,effective,and inexpensive that products are submitted to 100%inspection/testingEvery product shipped to customers is inspected and tested to determine if it meets customer expectationsBut there are situations where this is either impractical,impossible or uneconomicalDestructive tests,where no products survive testIn these situations,acceptance plans are sensible,Acceptance Plans,An acceptance plan is the overall scheme for either accepting or rejecting a lot based on information gained from samples.The acceptance plan identifies the:Size of samples,nType of samplesDecision criterion,c,used to either accept or reject the lotSamples may be either single,double,or sequential.,Single-Sampling Plan,Acceptance or rejection decision is made after drawing only one sample from the lot.If the number of defectives,c,does not exceed the acceptance criteria,c,the lot is accepted.,Single-Sampling Plan,Lot of N Items,RandomSample ofn Items,N-n Items,Inspect n Items,c c,c c,ReplaceDefectives,n Nondefectives,c DefectivesFound in Sample,Reject Lot,Accept Lot,Double-Sampling Plan,One small sample is drawn initially.If the number of defectives is less than or equal to some lower limit,the lot is accepted.If the number of defectives is greater than some upper limit,the lot is rejected.If the number of defectives is neither,a second larger sample is drawn.Lot is either accepted or rejected on the basis of the information from both of the samples.,Double-Sampling Plan,Lot of N Items,RandomSample ofn1 Items,N n1 Items,Inspect n1 Items,c1 c2,c1 c1,ReplaceDefectives,n1 Nondefectives,c1 DefectivesFound in Sample,Reject Lot,Accept Lot,Continue,c1 c1 c2,(to next slide),(c1+c2)c2,Double-Sampling Plan,N n1 Items,RandomSample ofn2 Items,N(n1+n2)Items,Inspect n2 Items,ReplaceDefectives,n2 Nondefectives,c2 DefectivesFound in Sample,Reject Lot,Accept Lot,Continue,(c1+c2)c2,(from previous slide),Sequential-Sampling Plan,Units are randomly selected from the lot and tested one by one.After each one has been tested,a reject,accept,or continue-sampling decision is made.Sampling process continues until the lot is accepted or rejected.,Sequential-Sampling Plan,0 10 20 30 40 50 60 70 80 90 100 110 120 130,3,1,2,Units Sampled(n),6,Number of Defectives,4,5,7,0,Reject Lot,Accept Lot,Continue Sampling,Definitions,Acceptance plan-Sample size(n)and maximum number of defectives(c)that can be found in a sample to accept a lotAcceptable quality level(AQL)-If a lot has no more than AQL percent defectives,it is considered a good lotLot tolerance percent defective(LTPD)-If a lot has greater than LTPD,it is considered a bad lot,Definitions,Average outgoing quality(AOQ)Given the actual%of defectives in lots and a particular sampling plan,the AOQ is the average%defectives in lots leaving an inspection stationAverage outgoing quality limit(AOQL)Given a particular sampling plan,the AOQL is the maximum AOQ that can occur as the actual%defectives in lots varies,Definitions,Type I error-Based on sample information,a good(quality)population is rejectedType II error-Based on sample information,a bad(quality)population is acceptedProducers risk(a)-For a particular sampling plan,the probability that a Type I error will be committedConsumers risk(b)-For a particular sampling plan,the probability that a Type II error will be committed,Considerations inSelecting a Sampling Plan,Operating characteristics(OC)curveAverage outgoing quality(AOQ)curve,Operating Characteristic(OC)Curve,An OC curve shows how well a particular sampling plan(n,c)discriminates between good and bad lots.The vertical axis is the probability of accepting a lot for a plan.The horizontal axis is the actual percent defective in an incoming lot.For a given sampling plan,points for the OC curve can be developed using the Poisson probability distribution,Operating Characteristic(OC)Curve,.10,.20,.30,.40,.50,.60,.70,.80,.90,Probability of Accepting the Lot,0 5 10 15 20 25,1.00,%Defectivesin Lots,AQL=3%,LTPD=15%,Consumers Risk(b)=8.74%,Producers Risk(a)=3.67%,n=15,c=0,OC Curve(continued),Management may want to:Specify the performance of the sampling procedure by identifying two points on the graph:AQL and a LTPD and bThen find the combination of n and c that provides a curve that passes through both points,Average Outgoing Quality(AOQ)Curve,AOQ curve shows information depicted on the OC curve in a different form.Horizontal axis is the same as the horizontal axis for the OC curve(percent defective in a lot).Vertical axis is the average quality that will leave the quality control procedure for a particular sampling plan.Average quality is calculated based on the assumption that lots that are rejected are 100%inspected before entering the production system.,AOQ Curve,Under this assumption,AOQ=pP(A)/1where:p=percent defective in an incoming lot P(A)=probability of accepting a lot is obtained from the plans OC curveAs the percent defective in a lot increases,AOQ will increase to a point and then decrease.,AOQ Curve,AOQ value where the maximum is attained is referred to as the average outgoing quality level(AOQL).AOQL is the worst average quality that will exit the quality control procedure using the sampling plan n and c.,Computers in Quality Control,Records about quality testing and results limit a firms exposure in the event of a product liability suit.Recall programs require that manufacturersKnow the lot number of the parts that are responsible for the potential defectsHave an information storage system that can tie the lot numbers of the suspected parts to the final product model numbersHave an information system that can track the model numbers of final products to customers,Computers in Quality Control,With automation,inspection and testing can be so inexpensive and quick that companies may be able to increase sample sizes and the frequency of samples,thus attaining more precision in both control charts and acceptance plans,Quality Control in Services,In all services there is a continuing need to monitor qualityControl charts are used extensively in services to monitor and control their quality levels,Wrap-Up:World-Class Practice,Quality cannot be inspected into products.Processes must be operated to achieve quality conformance;quality control is used to achieve this.Statistical control charts are used extensively to provide feedback to everyone about quality performance.more,Wrap-Up:World-Class Practice,Where 100%inspection and testing are impractical,uneconomical,or impo